The V-i graph for a conductor at temperature {T_1} and {T_2} are as shown in the figure. ({T_2}

Q: The $V-i$ graph for a conductor at temperature ${T_1}$ and ${T_2}$ are as shown in the figure. $({T_2} - {T_1})$ is proportional to

c (c) As we know, for conductors resistance $\propto$ Temperature. From figure $R_1 \propto T_1$ $ \Rightarrow \tan\theta \propto T_1$ $ \Rightarrow \tan\theta = kT_1 $… $(i)$ and $ R_2 \propto T_2$ $\Rightarrow \tan (90^o -\theta) \propto T_2$ $ \Rightarrow \cot\theta = kT_2$ ….$(ii)$ From equation $(i)$ and $(ii)$ $k({T_2} - {T_1}) = (\cot \theta - \tan \theta )\,$ $\,({T_2} - {T_1}) = \left( {\frac{{\cos \theta }}{{\sin \theta }} - \frac{{\sin \theta }}{{\cos \theta }}} \right) = \frac{{({{\cos }^2}\theta - {{\sin }^2}\theta )}}{{\sin \theta \cos \theta }}$$ = 2\cot 2\theta $ $ \Rightarrow $ $(T_2 -T_1) \propto \cot 2\theta$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The $V-i$ graph for a conductor at temperature ${T_1}$ and ${T_2}$ are as shown in the figure. $({T_2} - {T_1})$ is proportional to

A$\cos 2\theta $
B$\sin \theta $
C$\cot 2\theta $
D$\tan \theta $

Diffcult

STD 11 Science
NEET
STD 12 - 3. current electricity
Physics

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